Information processing device

ABSTRACT

An information processing system includes an information processing device provided with a housing. The information processing device includes: a placement section that is disposed on an upper surface of the housing, the placement section on which a portable communication object is placed; a wireless communicator that wirelessly communicates with the communication object placed on the placement section; and a first protrusion that extends in a left-right direction along a lower end of the placement section. The placement section includes a placement surface sloping downward from a back side toward a front side, the placement surface on which the communication object is placed. A step, forming a gap between the placement surface and the communication object, is disposed in a lower end portion of the placement surface.

BACKGROUND OF THE INVENTION Field of the Invention

The present invention relates to an information processing device, andmore particularly, to an information processing device including a nearfield wireless communicator provided on an inclined surface.

Description of the Background Art

An example of this type of the background art is described in JapaneseUnexamined Patent Application Publication No. 2019-096974. An imageforming device of the background art includes an operation display unitprovided on a front surface of an upper portion of a housing. An uppersurface of the operation display unit is an inclined surface slopingdownward from the back side toward the front side. A reader/writer thatexecutes wireless communication with an IC chip of a mobile terminal andreads/writes data to/from a storage provided in the IC chip is disposedon the upper surface of the operation display unit.

However, in the background art, the reader/writer is provided on theinclined surface; therefore, when wireless communication is executedbetween the reader/writer and a communication object, a user needs tosupport the communication object so that the communication object doesnot fall. In other words, when wireless communication is executed, theuser cannot let go of the communication object, which is inconvenient.

In order to solve such a problem, it is conceivable that a protrusion asa stopper is disposed in a lower end portion of the reader/writer toallow the communication object to be placed on an upper surface of thereader/writer. However, when the protrusion is disposed in the lower endportion of the reader/writer, it may be difficult to take out thecommunication object from the upper surface of the reader/writer.

Thus, a main object of the present invention is to provide a newinformation processing device.

Another object of the present invention is to provide an informationprocessing device that allows a communication object placed on aplacement surface for near field wireless communication to be easilytaken out.

SUMMARY OF THE INVENTION

A first invention is an information processing device including: ahousing; a placement section that is disposed on an upper surface of thehousing having a portable communication object placed thereon; awireless communicator that wirelessly communicates with thecommunication object placed on the placement section; and a firstprotrusion that extends in a left-right direction along a lower end ofthe placement section. The placement section includes a placementsurface sloping downward from a back side toward a front side, theplacement surface having the communication object placed thereon. Astep, forming a gap between the placement surface and the communicationobject, is disposed in a lower end portion of the placement surface.

A second invention is the information processing device according to thefirst invention, and the placement section is disposed entirely alongthe left-right direction of the lower end portion of the placementsurface and is provided with a recess extending in the left-rightdirection.

A third invention is the information processing device according to thesecond invention. The upper surface of the housing is an inclinedsurface sloping downward from the back side toward the front side, andthe placement surface includes a first inclined surface having aninclination angle identical to that of the upper surface of the housing,and a second inclined surface connected to a front side of the firstinclined surface, forming a portion of the recess, and sloping downwardfrom the first inclined surface toward the front side.

A fourth invention is the information processing device according to thefirst invention, and the placement section includes a second protrusionextending in the left-right direction at the lower end portion of theplacement surface and being lower than the first protrusion.

A fifth invention is the information processing device according to anyone of the first to fourth inventions, further including at least onelight emitter disposed on the placement section.

A sixth invention is the information processing device according to thefifth embodiment. The placement section is formed in a rectangularshape, and four of the light emitters are respectively disposed in fourcorner portions of the placement section.

A seventh invention is the information processing device according tothe sixth invention, further including a wireless communication markdisposed on the placement surface and serving as an index of a locationover which the communication object is held. The wireless communicationmark is arranged at a position in which diagonal lines of the fourcorner portions intersect on the placement surface.

An eighth invention is the information processing device according tothe sixth or seventh invention. The wireless communicator includes awireless communication antenna built in the housing, and the wirelesscommunication antenna is arranged at a position in which diagonal linesof the four corner portions intersect.

A ninth invention is the information processing device according to anyone of the sixth to eighth inventions, and lower two light emitters ofthe four light emitters are disposed respectively at opposite endportions of the first protrusion in a longitudinal direction thereof.

According to the present invention, a communication object placed on aninclined placement surface for near field wireless communication can beeasily taken out.

The above object, other objects, features, and advantages of the presentinvention will be more apparent from the following detailed descriptionof embodiments performed with reference to the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a front view schematically illustrating an externalconfiguration of an image forming system according to an embodiment ofthe present invention.

FIG. 2 is a perspective view schematically illustrating an externalconfiguration of an information processing device.

FIG. 3 is a side view illustrating the external configuration of theinformation processing device in a first state.

FIG. 4 is a side view illustrating the external configuration of theinformation processing device in a second state.

FIG. 5 is a plan view illustrating a configuration of an upper surfaceof the information processing device.

FIG. 6 is a cross-sectional view illustrating a configuration of a nearfield communicator.

FIG. 7 is a block diagram illustrating an electrical configuration ofthe information processing device illustrated in FIG. 1.

FIG. 8 is a block diagram illustrating an electrical configuration of animage forming device illustrated in FIG. 1.

FIG. 9 is a cross-sectional view illustrating a configuration of thenear field communicator in a modified example.

FIG. 10 is a perspective view illustrating an external configuration ofthe information processing device in the first state in a secondembodiment of the present invention.

FIG. 11 is a perspective view illustrating an external configuration ofthe information processing device in the second state in the secondembodiment.

FIG. 12 is a perspective view illustrating an external configuration ofthe information processing device according to a third embodiment of thepresent invention.

FIG. 13 is a perspective view illustrating an external configuration ofthe information processing device in a modified example.

DESCRIPTION OF THE PREFERRED EMBODIMENTS First Embodiment

With reference to FIG. 1, an image forming system 100 according to afirst embodiment of the present invention includes an informationprocessing device 10 and an image forming device 70.

The information processing device 10 is a multi-media kiosk (MMK)terminal that is placed (installed) in stores such as supermarkets,restaurants, and convenience stores, and public facilities such asstations, bus terminals, airports, government offices, and libraries.The information processing device 10 can provide various information orpredetermined products or services to a user (users) depending on theplace where the information processing device is placed, and includes aplurality of functions for providing various information, products, andservices. For example, the information processing device 10 can providea service for printing a photograph or the like to a user. Further,although the details will be described below, the information processingdevice 10 also can provide predetermined services such as copy,facsimile (FAX), scan, and printing to a user in cooperation with theimage forming device 70.

In addition, in the specification, the surface opposed to a standingposition of a user, that is, the surface on the side where a displaysurface of a display 14 described below is disposed is set as the front(front surface), and thereby the front-back direction (depth direction)of the information processing device 10 and components thereof isspecified. The left-right direction (horizontal direction) of theinformation processing device 10 and components thereof are specifiedbased on a state where the information processing device 10 is seen fromthe user. The same applies to the image forming device 70.

As illustrated in FIGS. 2 to 4, the information processing device 10includes a housing 28. The housing 28 includes a lower housing 28 a, afront cover (front door) 30, an upper housing 32, a front upper cover34, a rear upper cover 36, an upper rear cover 38, and a lower rearcover 40.

The lower housing 28 a is formed in a rectangular box shape, and castersor leg members are attached to a lower surface of the lower housing 28a. The lower housing 28 a is placed via the casters or leg members on afloor surface of an installation location of the information processingdevice 10.

The front cover 30 is disposed on a front surface of the lower housing28 a, configures a front end portion of the housing 28, and is disposedopenable and closable with respect to the lower housing 28 a by using ahinge or the like.

The upper housing 32 is attached to an upper surface of the lowerhousing 28 a. The front upper cover 34 and the rear upper cover 36 areattached to an upper surface of the upper housing 32. The front uppercover 34 and the rear upper cover 36 configure the most part of an upperend portion (upper surface) of the housing 28.

Note that the front upper cover 34 and the rear upper cover 36 arearranged adjacent to each other in the front-back direction. The frontupper cover 34 is arranged at the front side of the upper surface of theupper housing 32 (for example, at the front half of the upper surface ofthe upper housing 32), and the rear upper cover 36 is arranged at theback side of the upper surface of the upper housing 32 (for example, atthe rear half of the upper surface of the upper housing 32). Inaddition, a front end portion of the front upper cover 34 is locatedabove the front cover 30, and the front end portion of the front uppercover 34 and an upper end portion of the front cover 30 is locatedadjacent to each other in the up-down direction.

As illustrated in FIGS. 3 and 4, an upper surface 34 a of the frontupper cover 34 and an upper surface 36 a of the rear upper cover 36 areinclined surfaces sloping downward from the back side toward the frontside. Note that inclination angles of the upper surface 34 a of thefront upper cover 34 and the upper surface 36 a of the rear upper cover36 with respect to the horizontal direction are substantially the same(for example, 30 degrees to the horizontal direction). In other words,the upper surface 34 a of the front upper cover 34 and the upper surface36 a of the rear upper cover 36 are surfaces parallel to each other. Asjust described, the upper surface 34 a of the front upper cover 34 andthe upper surface 36 a of the rear upper cover 36, which configure theupper surface of the housing 28 are both the inclined surfaces, and thusthe upper surface of the housing 28 is an inclined surface.

Further, the rear upper cover 36 includes an inclined surface 36 bextending from an upper end portion (a rear end portion) of the uppersurface 36 a of the rear upper cover 36 toward the back side (rearward).The inclined surface 36 b is an inclined surface sloping downward fromthe front side toward the back side. Furthermore, the upper housing 32includes an inclined surface 32 a continuous with the back side of theinclined surface 36 b and sloping downward from the front side to theback side. Note that inclination angles, respectively, of the inclinedsurface 36 b of the rear upper cover 36 and the inclined surface 32 a ofthe upper housing 32 with respect to the horizontal direction aresubstantially the same. In other words, the inclined surface 36 b of therear upper cover 36 and the inclined surface 32 a of the upper housing32 are surfaces substantially parallel to each other and substantiallyflush with each other.

As illustrated in FIGS. 2 to 4, the upper rear cover 38 is attached to aback surface of the upper housing 32, and the lower rear cover 40 isattached to a back surface of the lower housing 28 a. Note that theupper rear cover 38 and the lower rear cover 40 are arranged adjacent toeach other in the up-down direction. Further, as illustrated in FIGS. 3and 4, a back surface 38 a of the upper rear cover 38 is an inclinedsurface sloping downward from the front side toward the back side.Furthermore, the lower rear cover 40 includes an inclined surface 40 acontinuous with the back surface 38 a of the upper rear cover 38 andsloping downward from the front side toward the back side. Note thatinclination angles, respectively, of the back surface 38 a of the upperrear cover 38 and the inclined surface 40 a of the lower rear cover 40with respect to the horizontal direction are substantially the same. Inother words, the back surface 38 a of the upper rear cover 38 and theinclined surface 40 a of the lower rear cover 40 are surfacessubstantially parallel to each other and substantially flush with eachother.

The most part of the upper surface (top surface) of the housing 28 isconfigured in the order from the front side by the upper surface 34 a ofthe front upper cover 34, the upper surface 36 a of the rear upper cover36, the inclined surface 36 b of the rear upper cover 36, the inclinedsurface 32 a of the upper housing 32, the back surface 38 a of the upperrear cover 38, and the inclined surface 40 a of the lower rear cover 40.As described above, the surfaces configuring the most part of the uppersurface of the housing 28 are all inclined surfaces and thus arestructured such that dust does not easily adhere to the upper surface ofthe housing 28 (dust does not easily gather).

Further, as illustrated in FIGS. 1 to 5, the information processingdevice 10 includes a plurality of operating components (operatingdevices) such as the display 14 with a touch panel 12, a memoryconnection 50, an optical disk connection 52, a paper strip printer 18,a code reader 20, a near field communicator 22, a money processing unit24, and a photo printer 26. Each of the plurality of operatingcomponents is disposed so that functions of the information processingdevice 10 are exerted. A first operating unit 60, a second operatingunit 62, and a third operating unit 64 are configured by the operatingcomponents.

Firstly, the first operating unit 60 will be described. The firstoperating unit 60 includes the display 14 with the touch panel 12 and aframe body (support member) 140. The touch panel 12 is a general-purposetouch panel, and a touch panel configured in any manner such as acapacitive touch panel, an electrostatic induction touch panel, aresistive touch panel, or an infrared touch panel can be applied as thetouch panel 12. In the first embodiment, a capacitive touch panel isapplied as the touch panel 12, and the touch panel 12 is disposed on thedisplay surface of the display 14. Note that a touch panel display inwhich the touch panel 12 and the display 14 are integrally formed may beapplied. For example, an LCD or electro-luminescence (EL) display or thelike can be applied as the display 14. Various operation screens such asa home screen are displayed on the display 14 with the touch panel 12.The display 14 with the touch panel 12 is utilized as an input devicethat accepts an input operation (a user operation) by a user.

As illustrated in FIGS. 2 and 3, the display 14 with the touch panel 12is supported by the frame body 140 covering the periphery and backsurface of the display 14 with the touch panel 12. The frame body 140 issupported on the upper surface of the housing 28 (the informationprocessing device 10) and is disposed so as to cover a portion of theupper surface of the housing 28. Specifically, the frame body 140 issupported by a substantially central portion in the front-back directionof the upper surface of the housing 28. In the present embodiment, theframe body 140 is supported by a rear end portion of the front uppercover 34.

Note that the frame body 140 is basically supported by the housing 28such that the display surface of the display 14 slopes downward from theback side toward the front side. Hereinafter, a state where the displaysurface of the display 14 is an inclined surface (the first operatingunit 60 is inclined) is referred to as a first state (basic state). Inthe first state, the display surface of the display 14 is an uppersurface of the first operating unit 60, and thus the upper surface ofthe first operating unit 60 in the first state is an inclined surfacesloping downward from the back side toward the front side.

Further, the inclination angle of the display surface of the display 14in the first state with respect to the horizontal direction issubstantially the same as the inclination angle of the upper surface ofthe housing 28 (the upper surface 36 a of the rear upper cover 36) withrespect to the horizontal direction. In other words, the display surfaceof the display 14 in the first state and the upper surface of thehousing 28 are surfaces substantially parallel to each other.Furthermore, a front end portion of the display surface of the display14 in the first state is separated from the upper surface 34 a of thefront upper cover 34 in the up-down direction. In other words, there isa step between the display surface of the display 14 in the first stateand the upper surface 34 a of the front upper cover 34.

Moreover, the frame body 140 is displaceably supported between the firststate and a second state where the center of the first operating unit 60(the center of the display 14 with the touch panel 12) is displacedforward from the first state. In other words, the first operating unit60 is displaceable between the first state and the second state.

In the present embodiment, the frame body 140 is supported by a hinge(rotary support portion) 142 supporting the frame body 140 (the firstoperating unit 60) such that the frame body 140 (the first operatingunit 60) is rotatable to the housing 28 about a lower end portion of theframe body 140. Specifically, the rotary support portion 142 includes acolumn-shaped or cylindrical shaft portion and a shaft support portionsupporting the shaft portion such that the shaft portion is rotatable.The shaft portion is disposed on either one of the housing 28 and theframe body 140, and the shaft support portion is disposed on the otherof the housing 28 and the frame body 140. A set of the shaft portion andthe shaft support portion is disposed in each of left and right endportions of the lower end portion of the frame body 140. Further, theaxis of the shaft portion extends in the left-right direction, and therotary support portion 142 having the axis in the left-right directionsupports the frame body 140 (the first operating unit 60) such that theframe body 140 (the first operating unit 60) is rotatable in thefront-back direction and in the up-down direction. In addition, aportion in which the shaft portion and the shaft support portion makecontact with (slide against) each other is overlapped with (covered by)a portion of the frame body 140 or a portion of the front upper cover 34so as not to be seen from the outside. Therefore, dust does not easilyenter the portion in which the shaft portion and the shaft supportportion make contact with each other (the inside of the rotary supportportion 142).

Further, the first operating unit 60 is not displaced in a direction inwhich the center of the first operating unit 60 shifts from the firststate toward the back side (in a direction in which the inclinationangle approaches the horizontal direction). As illustrated in FIG. 3, aprotrusion 360 is disposed on the upper surface of the housing 28 (theupper surface 36 a of the rear upper cover 36 in the presentembodiment). An upper surface of the protrusion 360 is brought intocontact with a lower surface of the first operating unit 60 (a lowersurface or a back surface of the frame body 140), and thus the firstoperating unit 60 is restricted from rotating in the direction in whichthe inclination angle approaches the horizontal direction. As justdescribed, a state where the first operating unit 60 is not displacedtoward the back side (is in a non-displaceable condition) is the firststate. In other words, a state where the first operating unit 60 isrestricted from rotating by the protrusion 360 is the first state.Furthermore, the upper surface of the protrusion 360 is a curved surfacebulged toward the upper side, and the protrusion 360 is formed in asemi-cylindrical shape (a shape forming a portion of a cylinder).

Moreover, a space (an opening) 66 coincided with the protrusion heightof the protrusion 360 is formed between the lower surface of the firstoperating unit 60 in the first state and the upper surface of thehousing 28. Since the protrusion 360 is arranged at predeterminedintervals from front, rear, left, and right ends of the upper surface ofthe housing 28, the opening 66 is formed on the left side, the rightside, and the back side on the lower surface of the first operating unit60. In other words, the opening 66 is formed in all portions except asupport portion (the rotary support portion 142) of the first operatingunit 60. A user inserts his/her hand into the opening disposed on theleft side, the right side, and the back side and holds (grabs) the firstoperating unit 60 and thereby can rotate the first operating unit 60. Asjust described, the opening 66 is formed on the back side of the firstoperating unit 60. Therefore, the operability at the time of displacingthe first operating unit 60 can be increased, and the user's fingers canbe prevented from getting stuck at the time of displacing the firstoperating unit 60.

In addition, the first operating unit 60 is displaceable (rotatable) ina direction in which the center of the first operating unit 60 shiftsfrom the first state toward the front side (in a direction in which theinclination angle approaches the vertical direction). A state where thecenter of the first operating unit 60 is displaced from the first statetoward the front side is the second state. A state where the center ofthe first operating unit 60 is displaced from the first state toward thefront side and the display surface of the display 14 is a substantiallyvertical surface is illustrated as an example of the second state inFIGS. 4 and 5.

Note that the first operating unit 60 is manually rotated by a user inthe present embodiment. The first operating unit 60 is rotated, and thusthe inclination angle of the display surface of the display 14 ischanged. Note that a restriction portion is provided, and therestriction portion restricts the center of the first operating unit 60from rotating toward the front side (in the direction in which theinclination angle approaches the vertical direction) from the statewhere the display surface of the display 14 is a substantially verticalsurface. The restriction portion allows the display surface of thedisplay 14 to be a substantially vertical surface as described above.

Next, the second operating unit 62 will be described. As illustrated inFIGS. 1, 2, and 5, the second operating unit 62 includes the pluralityof operating components such as the memory connection 50, the paperstrip printer 18, the code reader 20, and the near field communicator22.

The memory connection 50 includes a mounting portion (memory slot) towhich a portable non-volatile memory, which can be carried (for example,flash memories such as a USB memory, an SD memory card, and a memorystick) is to be mounted. The memory connection 50 includes a pluralityof memory slots respectively corresponding to a plurality of types offlash memories.

The paper strip printer 18 (a third image forming unit) is, for example,a thermal printer (thermosensitive printer) or a dot impact printer. Thepaper strip printer 18 issues a piece of paper on which an image of areceipt, a journal, a coupon, or the like is printed. Specifically, thepaper strip printer 18 prints various character strings, images, codepatterns (barcodes), or the like on a roll of paper and discharges apiece of printed paper from a paper ejection portion (paper ejectionport) 18 a.

The code reader 20 includes, for example, a laser scanner or a camera.The code reader 20 can read a code applied to a product, productpackaging, a card, a receipt, or the like, or a code or the likedisplayed on a screen of a user terminal (mobile terminal). Codes thatcan be read by the code reader 20 include bar codes (one-dimensional barcodes) or two-dimensional codes (for example, a QR code (registeredtrademark), a Micro QR code, DataMatrix MaxiCode, VeriCode, or thelike).

The near field communicator 22 performs wireless non-contact datacommunication with a communication target in accordance with acommunication standard such as ISO/IEC 18092 (so-called NFC (Near FieldCommunication)). For example, the near field communicator 22 performswireless non-contact data communication with a portable communicationobject such as an IC card, a mobile terminal (a feature phone, asmartphone, a tablet PC, or the like), an ID card, a membership card, oran employee ID card in accordance with a communication standard such asFelica (registered trademark). A communicable distance of the near fieldcommunicator 22 is a length about several centimeters to several meters.As illustrated in FIG. 5, the near field communicator 22 includes aplacement section 220 on which a communication object is to be placed.In addition, the specific configuration of the placement section 220will be described below.

The near field communicator 22 transmits, to the communication objectplaced on the placement section 220, a signal (reading command)instructing to read out data stored in a storage of the communicationobject. The communication object sends the data as a response to thereading command to the near field communicator 22. Further, the nearfield communicator 22 transmits, to the storage of the communicationobject, a signal (writing command) instructing writing together withdata (writing data) to be written in the storage of the communicationobject. The writing data received is written (stored) in the storage ofthe communication object in accordance with the writing command.

Furthermore, the communication object with which the near fieldcommunicator 22 performs data communication includes a so-calledelectronic money medium. The electronic money medium is an IC card, amobile terminal, or the like and is a medium including a storage thatstores data (electronic money data) including at least data of thebalance of electronic money (electronic money balance) and related topayment by electronic money (electronic payment). In a case where thenear field communicator 22 performs data communication with theelectronic money medium, the near field communicator 22 transmits, tothe electronic money medium, a reading command instructing to read outthe electronic money data stored in the electronic money medium. Theelectronic money medium sends the electronic money data as a response tothe reading command to the near field communicator 22. In addition, thenear field communicator 22 transmits a writing command instructingwriting together with writing data to be written in the electronic moneymedium. The writing data received is stored in the storage of theelectronic money medium in accordance with the writing command. As justdescribed, the near field communicator 22 functions as an electronicmoney reader.

As illustrated in FIGS. 2 and 5, the operating components configuringthe second operating unit 62 are disposed on the upper surface of thehousing 28. The second operating unit 62 is arranged on the front sideof the first operating unit 60. In other words, the first operating unit60 is arranged on the back side of the second operating unit 62.

In the present embodiment, the operating components of the secondoperating unit 62 are disposed on the front upper cover 34.Specifically, the code reader 20 and the near field communicator 22 (theplacement section 220) arranged side by side in the left-right directionon the front side of the second operating unit 62 (near side as seenfrom a user). The memory connection 50 is arranged side by side with thecode reader 20 on the back side thereof. The paper strip printer 18 isarranged side by side with the near field communicator 22 (the placementsection 220) on the back side thereof. Note that a portion of the paperstrip printer 18 from which the paper ejection portion 18 a disposed ona connection surface 42 is excluded, in particular, a portion of thepaper strip printer 18, which is included in the second operating unit62, has a flat surface. In addition, the operating components such asthe memory connection 50 and the code reader 20 are not arranged on theback side of the near field communicator 22 (the placement section 220).Accordingly, protruded or recessed portions such as protrusions are notpresent on the back side of the near field communicator 22 (theplacement section 220). Therefore, a communication object (for example,a smartphone, a tablet PC, or the like) larger than the placementsection 220 can be held over (placed close to) the near fieldcommunicator 22.

In addition, the upper surface of the housing 28 (the upper surface 34 aof the front upper cover 34) on which the operating components of thesecond operating unit 62 are disposed is an upper surface of the secondoperating unit 62. As described above, the upper surface of the housing28 (the upper surface 34 a of the front upper cover 34) is an inclinedsurface sloping downward from the back side toward the front side.Therefore, the upper surface of the second operating unit 62 is aninclined surface sloping downward from the back side toward the frontside (with an inclination angle of 30 degrees with respect to thehorizontal direction), and the upper surface of the second operatingunit 62 is a surface substantially parallel to the upper surface of thefirst operating unit 60 in the first state (the display surface of thedisplay 14 in the first state). Placing a drink container or the like onan inclined surface seems more difficult than placing a drink containeror the like on a horizontal surface. Thus, a drink container or the likethat may cause a failure of electronic components built in the housing28 can be prevented from being placed on the upper surface of the secondoperating unit 62.

Further, the operating components of the second operating unit 62 aredisposed on the inclined surface (the upper surface of the secondoperating unit 62); therefore, advantageously, even a user, the eyelevel of which is low or even a user, the eye level of which is high canvisually recognize the operating components and easily operate theoperating components. In other words, the visual recognition andoperability of various users having different physical characteristicscan be improved.

Furthermore, guidance information such as character strings, figures,and symbols for guiding or instructing a user is indicated on the uppersurface of the second operating unit 62. The guidance information isdesirably indicated on the upper surface of the second operating unit bysilk printing. With such a configuration, regardless of the eye level ofa user, the guidance information is likely to be visually recognized,and thus the visibility of the guidance information can be improved.

Next, the third operating unit 64 will be described. As illustrated inFIGS. 2 to 4, the third operating unit 64 includes the optical diskconnection (optical drive) 52 and the paper ejection portion 18 a of thepaper strip printer 18. The optical disk connection 52 includes a diskdrive into which an optical disk (for example, CD-R, DVD-R and BD-Rdisks) is to be placed. For example, the optical disk connection 52 isused at the time of printing an image stored in the optical disk. Inaddition, the memory connection 50 and the optical disk connection 52which are described above can be collectively referred to as a storagemedium connection 16 to which various storage media are to be connected.

The third operating unit 64 is disposed on the connection surface(connection) 42 formed between a front end portion of the upper surfaceof the first operating unit 60 (the display surface of the display 14 inthe first state) and a rear end portion of the upper surface of thesecond operating unit 62. In other words, the third operating unit 64 isarranged between the first operating unit 60 and the second operatingunit 62. Additionally, in the present embodiment, the connection surface42 is a front surface (for example, a substantially vertical surface) ofa vertical wall portion formed at the rear end portion of the frontupper cover 34. As just described, the third operating unit 64 isarranged on the front surface of the vertical wall portion between thefirst operating unit 60 and the second operating unit 62. Therefore, inaddition to easy visual recognition by a user, a space between the firstoperating unit 60 and the second operating unit 62 can be effectivelyutilized. Moreover, the first operating unit 60, the second operatingunit 62, and the third operating unit 64 are arranged in the most partof the upper surface of the housing 28, and thus a space in the uppersurface of the housing 28 can be effectively utilized without waste.

Returning to FIG. 1, the money processing unit 24 includes a moneyinsertion portion 24 a and a coin return slot 24 b. The money insertionportion 24 a includes a coin insertion slot 24 c for inserting coins, abill insertion slot 24 d for inserting bills, a change return lever 24 efor returning change, or the like.

The coins inserted from the coin insertion slot 24 c and the billsinserted from the bill insertion slot 24 d are classified according tothe type of money to be stored in a money storage (not illustrated)built in the front cover 30. The money storage includes a coin storageand a bill storage. When coins or bills are inserted, the amount ofmoney inserted is calculated according to the type and number of coinsstored in the coin storage and the type and number of bills stored inthe bill storage. When a predetermined service or the like is executedin the information processing device 10, the cost according to thecontent of the service or the like (charge related to the provision ofthe service or the like) is deducted from the amount of money inserted,and the remaining amount (amount of balance) after the charge isdeducted from the amount of money inserted is calculated. Further, whenthe change return lever 24 e is operated, coins or bills are returnedbased on the amount of balance. Note that coins are returned from thecoin return slot 24 b and that bills are returned from the billinsertion slot 24 d.

Note that electronic payment may be made in place of or in addition tothe payment with money at the money processing unit 24. For example,after a service or the like is selected, a plurality of electronic moneybrands (types) are displayed on the display 14 of the informationprocessing device 10, and a user is allowed to select electronic moneyfor payment. Then, the electronic money for payment is used to settlethe payment, and when the payment is completed, the service or the likeis provided.

The aforementioned money storage is built in the front cover 30. Themoney insertion portion 24 a and the coin return slot 24 b are disposedon the front surface of the front cover 30 (the housing 28). Forexample, the money insertion portion 24 a is arranged at the upper endportion of the front cover 30. Meanwhile, the coin return slot 24 b islocated below the money insertion portion 24 a and is arranged at apredetermined interval with respect to the money insertion portion 24 a.

Moreover, portions of the coin return slot 24 b, the coin insertion slot24 c, and the bill insertion slot 24 d or predetermined locations nearthe coin return slot 24 b, the coin insertion slot 24 c, and the billinsertion slot 24 d are colored in a predetermined color (first color).In the present embodiment, a label 24 f attached above the coin returnslot 24 b, a substantially circular frame line 24 g surrounding the coininsertion slot 24 c, and a label 24 h attached above the bill insertionslot 24 d are colored in the first color (for example, yellow). Notethat locations other than the label 24 f, the frame line 24 g, and thelabel 24 h on the front surface of the front cover 30 (the housing 28)are not colored in the first color. Therefore, only portions of the coinreturn slot 24 b, the coin insertion slot 24 c, and the bill insertionslot 24 d or predetermined locations near the coin return slot 24 b, thecoin insertion slot 24 c, and the bill insertion slot 24 d are coloredin the first color. Consequently, a user can intuitively recognize thatthe coin return slot 24 b, the coin insertion slot 24 c, and the billinsertion slot 24 d are related to each other (related to the paymentwith money).

The photo printer 26 (a second image forming unit) is, for example, adye sublimation printer or an ink-jet printer (in particular, an ink-jetprinter using a dye ink). An image is printed on photographic paper(photo paper, for example, glossy paper) or label seal paper(hereinafter, referred to simply as seal paper). A photo printed by thephoto printer 26 is discharged to a photo ejection portion 26 a. Sealpaper is structured such that an adhesive layer coated with an adhesive(glue) is formed on the back surface of the surface (printing surface)on which an image is printed and such that release paper (mounting paperor backing paper) that can be easily peeled off is adhered to the backsurface.

Note that image data stored in a storage medium connected to the storagemedium connection 16, image data transmitted from an external computersuch as a server, or the like is utilized as image data for forming animage on the photo paper or the seal paper in the photo printer 26.Further, the size of the photo paper or the like is L size, 2L size, orthe like.

The photo printer 26 is built in the front cover 30. The photo ejectionportion 26 a is disposed on the front surface of the front cover 30 (thehousing 28). Note that the photo ejection portion 26 a is arranged sideby side with the coin return slot 24 b in the left-right direction. Inother words, the photo ejection portion 26 a and the coin return slot 24b are arranged substantially on the same level. In addition, since themoney insertion portion 24 a, the coin return slot 24 b, and the photoejection portion 26 a are disposed on the front surface of the frontcover 30 (the housing 28), the money insertion portion 24 a, the coinreturn slot 24 b, and the photo ejection portion 26 a are not includedin any of the first operating unit 60, the second operating unit 62, andthe third operating unit 64 which are described above. The moneyinsertion portion 24 a, the coin return slot 24 b, and the photoejection portion 26 a can be collectively referred to as a fourthoperating unit.

Next, the placement section 220 of the near field communicator 22 willbe described with reference to FIGS. 5 and 6. The placement section 220is disposed on the upper surface of the housing 28 (the upper surface 34a of the front upper cover 34), and includes a placement surface 222 anda first protrusion 224.

The placement surface 222 is configured by a portion of the uppersurface of the housing 28 (the upper surface 34 a of the front uppercover 34). In other words, the placement surface 222 is an inclinedsurface sloping downward from the back side toward the front side. Inaddition, the placement surface 222 is formed in a substantiallyrectangular shape coincided with the shape (a rectangular shapespecified by JISX6301 or ISO/IEC7810) and size (length 53.98 mm×wide85.60 mm) of an IC card of a communication object. In addition, the sizeof the placement surface 222 is set to be the same as the communicationobject or slightly larger than the communication object. Further, theplacement section 220 as a whole is formed in a substantiallyrectangular shape slightly larger than the placement surface 222.

Furthermore, the first protrusion 224 extends along a lower edge of theplacement section 220 (a lower edge of the placement surface 222) in theleft-right direction and protrudes upward (substantially perpendicularto the upper surface of the housing 28). In the present embodiment, thefirst protrusion 224 is formed from a left end portion to a right endportion of the placement section 220, that is, so as to face the entireplacement section 220 in the left-right direction. Moreover, the firstprotrusion 224 may be formed so as to face a portion (for example, onlythe center portion) of the placement section 220 in the left-rightdirection.

As just described, the first protrusion 224 is disposed along the loweredge of the placement section 220, and thus a communication object canbe prevented from slipping from the placement section 220 (the placementsurface 222) (the movement of the communication object is inhibited).

Further, as illustrated in FIG. 6, a step is formed at a lower endportion of the placement surface 222. In the present embodiment, thestep is formed by a recess 226 disposed in the lower end portion of theplacement surface 222 and extending in the left-right direction. Thestep (recess 226) is disposed substantially entirely along theleft-right direction of the lower end portion of the placement surface222. Specifically, the placement surface 222 includes a first inclinedsurface 228 being the same surface (having the same inclination angle)as the upper surface of the housing 28, and a second inclined surface230 connected a lower side (front side) of the first inclined surface228 at the lower end portion of the placement surface 222 and slopingdownward from the first inclined surface 228 toward the front side(having a larger inclination angle with respect to the horizontaldirection than that of the first inclined surface 228). The recess 226is formed by a difference between the inclination angles of the firstinclined surface 228 and the second inclined surface 230. In otherwords, the second inclined surface 230 forms the recess 226.

As just described, the step is formed at the lower end portion of theplacement surface 222; therefore, when a communication object such as anIC card is placed on the placement surface 222, a gap (space) is formedat the lower end portion of the placement surface 222 (a lower endportion of the communication object) between the communication objectand the placement surface 222. Consequently, when the lower end portionof the communication object is pushed from above by a user, the oppositeside (an upper end portion of the communication object) rises. As aresult, even when the first protrusion 224 is present, the communicationobject can be easily taken out from the placement surface 222.

Further, returning to FIG. 5, the placement section 220 includes aplurality of light emitters 232. Each of the plurality of light emitters232 includes a light source such as an LED lamp. The light emitters 232are arranged side by side at the outer side of the placement surface222. In other words, each of the plurality of light emitters 232 isarranged at a location not overlapped with an IC card (length 53.98mm×wide 85.60 mm) when the IC card is placed on the placement surface222. In the present embodiment, the light emitters 232 are disposedrespectively on four corner portions of the placement section 220 in theup-down direction and the left-right direction (four corners of theplacement section 220). Furthermore, two of the four light emitters 232,which are arranged at the lower side are disposed on the firstprotrusion 224. Specifically, the two light emitters 232 arranged at thelower side are disposed respectively at opposite end portions of thefirst protrusion 224 in the left-right direction (longitudinaldirection).

For example, the light emitters 232 are turned on when electronicpayment is selected as a payment method of a fee, and attract a user'sattention (guide a user) to the placement section 220 (the placementsurface 222). In addition, the light emitters 232 are turned on when thenear field communicator 22 and a communication object (for example, anelectronic money medium) are in communication or when the communicationof the near field communicator 22 with the communication object (forexample, reading of electronic money data) is completed. Moreover, apredetermined time elapses from the timing when the light emitters hasblinked, when the communication object is taken out (removed) from theplacement section 220, or when another operating component (for example,the touch panel 12) is operated, the light emitters 232 are turned off.Therefore, a user can determine (recognize) a communication state(communication status) of the near field communicator 22 with thecommunication object in accordance with a blinking state of the lightemitters 232.

As just described, since the light emitters 232 are disposed on theplacement section 220, the area (the placement surface 222) on which acard is placed is suggested (indicated), and thus a user can be guided.Further, since the light emitters 232 are arranged side by side at theouter side of the placement surface 222, the light emitters 232 are notcovered (hidden) by a communication object (an IC card) placed on orheld over the placement section 220. Consequently, a user can easilydetermine (recognize) whether the communication object is being read (incommunication) or whether reading of the communication object iscompleted (communication is completed).

Furthermore, when the light emitters 232 are disposed at a location notoverlapped with the IC card or when the near field communicator 22 is incommunication with the communication object, the light emitters 232blink. Therefore, a user can easily determine that the near fieldcommunicator 22 is in communication with the communication object, andthe communication object is prevented from being taken out by mistakeduring communication.

In addition, a wireless communication mark 234 serving as an index ofthe position where a communication object is held (positioned close) andincluding appropriate figures is disposed in the center of the placementsurface 222. Moreover, a wireless communication antenna 236 for the nearfield communicator 22 to transmit/receive a signal to/from acommunication object is built at a location corresponding to thewireless communication mark 234 in the housing 28. The wirelesscommunication mark 234 and the wireless communication antenna 236 arearranged at the intersection of diagonal lines of the four cornerportions of the placement section 220 in the up-down direction and theleft-right direction (lines connecting the light emitters 232 diagonallyarranged).

FIG. 7 is a block diagram illustrating an electrical configuration ofthe information processing device 10 illustrated in FIG. 1. Withreference to FIG. 7, the information processing device 10 includes a CPU122. A RAM 124, a storage 126, a touch panel control circuit 128, adisplay control circuit 130, the storage medium connection 16, the paperstrip printer 18, the code reader 20, the near field communicator 22,the money processing unit 24, the photo printer 26, a lighting controlcircuit 132, and a communication circuit 134 via a bus 120 to the CPU122. Further, the touch panel 12 is connected to the touch panel controlcircuit 128. The display 14 is connected to the display control circuit130. The light emitters 232 are connected to the lighting controlcircuit 132.

The CPU 122 manages the overall control of the information processingdevice 10. The RAM 124 is used as a work area and a buffer area of theCPU 122.

The storage 126 is a main storage device, including a ROM, an HDD, orthe like, of the information processing device 10. The storage 126stores a control program for the CPU 122 to control operations ofcomponents of the information processing device 10, default values forvarious information, display image data for various screens, or the likeas appropriate. Note that instead of the HDD or together with the HDD,another non-volatile memory such as an SDD, a flash memory, and anEEPROM may be utilized as the storage 126. This also applies to astorage 86 of the image forming device 70 described below.

In addition, in the present embodiment, the CPU 122, the RAM 124, andthe storage 126 function as a main controller of the image formingsystem 100. In other words, the information processing device 10including the main controller functions as a main control device (masterdevice) of the image forming system 100. Moreover, the CPU 122, the RAM124, and the storage 126 are housed in the upper housing 32.

The touch panel control circuit 128 applies the required voltage to thetouch panel 12, detects a touch operation (touch input) within a toucheffective area of the touch panel 12, and outputs touch coordinate dataindicating the position of the touch input to the CPU 122.

The display control circuit 130 includes a GPU, a VRAM, or the like.Under an instruction of the CPU 122, the GPU uses image generation datastored in the RAM 124, generates display image data in the VRAM fordisplaying various screens on the display 14, and outputs the generateddisplay image data to the display 14.

The lighting control circuit 132 controls the light sources included inthe light emitters 232 to allow the light sources to turn on or off. Inaddition, the light sources included in the light emitters 232 can beindividually controlled. In other words, the light emitters 232 can beindividually controlled. For example, lighting on/off is controlled inaccordance with a communication state of the near field communicator 22with a communication object.

The communication circuit 134 is a communication circuit to connect to anetwork such as an Internet. The communication circuit 134 is a wiredcommunication circuit or a wireless communication circuit, andcommunicates through the network with the image forming device 70 and anexternal computer (external terminal) such as a server in accordancewith an instruction from the CPU 122. Note that the communicationcircuit 134 can be directly communicate with the image forming device70, the external terminal, or the like by a wired or wireless system(for example, an infrared method), a WiFi (registered trademark) method,or a Bluetooth (registered trademark) method) not through the network.

In addition, the electric configuration of the information processingdevice 10 illustrated in FIG. 7 is merely an example and is notnecessarily limited thereto. For example, the information processingdevice 10 may include, as another input means, a hardware operationbutton such as an operation panel. Alternatively, a hardware keyboardmay be connected to the information processing device 10.

Returning to FIG. 1, the image forming device (corresponding to a firstimage forming device) 70 is a multifunction peripheral (MFP) including aprinting function (print), a copying function, a scanner function, afacsimile function, or the like. Note that the image forming device 70is arranged near the information processing device 10. In the presentembodiment, the image forming device 70 is arranged adjacent to theinformation processing device 10 on the right side thereof.

The image forming device 70 includes a housing 80. The housing 80includes a lower housing 80 a and an upper housing 80 b disposed on(connected to) an upper surface of the lower housing 80 a. An imageforming unit 74 and a paper feeder 76 are disposed in the lower housing80 a. An image reader 72 and a paper ejection tray 78 are disposed inthe upper housing 80 b.

The image reader 72 includes a document placement table formed of atransparent material, and is built in the upper housing 80 b (thehousing 80). A document holding cover 72 a is attached via a hinge orthe like above the document placement table so as to open and close.

Further, the image reader 72 includes a light source, a pluralitymirrors, an imaging lens, a line sensor, or the like. The image reader72 allows a surface of a document to be exposed to light by the lightsource and guides reflected light reflected from the surface of thedocument, through the plurality of mirrors to the imaging lens. Then, animage is formed from the reflected light by the imaging lens on a lightreceiving element of the line sensor. The line sensor detects brightnessor chromaticity of the reflected light from which the image is formed onthe light receiving element and generates read image data based on animage on the surface of the document. A charge coupled device (CCD), acontact image sensor (CIS), or the like is applied as the line sensor.

The image forming unit 74 (a first image forming unit) is built in thelower housing 80 a (the housing 80). The image forming unit 74 is anelectrographic image forming unit including a photoconductor drum, acharging device, an exposure device, a developing device, a transferdevice, a fixing device, or the like. In addition, the image formingunit 74 includes a color printing function. A plurality of image formingstations including a photoconductor drum, a charging device, an exposuredevice, a developing device, or the like for each of colors of Y(yellow), M (magenta), C (cyan), and K (black) is disposed in the imageforming unit 74. For example, the image forming unit 74 forms, by anelectrographic method, an image on a predetermined recording medium(paper) fed from the paper feeder 76 or the like and discharges thepaper on which the image is formed to the paper ejection tray 78disposed between the image reader 72 and the image forming unit 74.

Note that the read image data read by the image reader 72, the imagedata transmitted from the information processing device 10, the imagedata transmitted from an external computer, or the like is utilized asthe read image data for forming an image on the paper by the imageforming unit 74.

In addition, the image forming unit 74 is not limited to anelectrographic image forming unit. For example, the image forming unit74 may be an ink-jet image forming unit.

Note that the dimension (size) in the up-down direction of the lowerhousing 80 a is substantially equal to the dimension in the up-downdirection of the front cover 30 of the information processing device 10and that the lower housing 80 a and the front cover 30 are arrangedsubstantially at the same position in the up-down direction. Therefore,an upper edge of the lower housing 80 a is located substantially on thesame level as an upper edge of the front cover 30 of the informationprocessing device 10, and a lower edge of the lower housing 80 a islocated substantially on the same level as an lower edge of the frontcover 30 of the information processing device 10. In other words, theheights of the upper edge and the lower edge of the lower housing 80 acoincide with the heights of the upper edge and the lower edge of thefront cover 30 (the width in the up-down direction of the lower housing80 a coincides with the width in the up-down direction of the frontcover 30).

Further, the width (size) in the up-down direction of the upper housing80 b is substantially equal to the width in the up-down direction from alower end portion of the front upper cover 34 to an upper end portion ofthe frame body 140 in the first state. An upper edge of the upperhousing 80 b is located substantially on the same level as an upper edgeof the frame body 140 in the first state, and a lower edge of the upperhousing 80 b is located substantially on the same level as a lower edgeof the front upper cover 34.

In other words, the position (height) in the up-down direction of aboundary line between the front cover 30 and the front upper cover 34 inthe information processing device 10 coincides with the height of aboundary line between the lower housing 80 a and the upper housing 80 bin the image forming device 70. The height of an upper end of theinformation processing device 10 (the upper edge of the frame body 140in the first state) coincides with the height of an upper end of theimage forming device 70 (the upper edge of the upper housing 80 b).

Furthermore, the most part of the front cover 30 (excluding the portioncolored in the first color described above) is colored in a second color(for example, light gray), and the lower housing 80 a is also colored inthe second color or a similar color to the second color. Note thatsimilar colors mean colors adjacent to a target color in the colorwheel.

Moreover, the front upper cover 34 and the frame body 140 are colored ina third color (for example, black or dark gray) different from the firstcolor and the second color, and the upper housing 80 b is also coloredin the third color or a similar color to the third color.

Therefore, in the information processing device 10 and the image formingdevice 70, respectively, from the boundary with the border line betweenthe front cover 30 and the front upper cover 34 and the boundary withthe border line between the lower housing 80 a and the upper housing 80b, the lower side is colored in the second color and the upper side iscolored in the third color different from the second color.Consequently, although the information processing device 10 and theimage forming device 70 are separate devices, a sense of unity isgenerated, and thus the aesthetic appearance of the image forming system100 is improved. Further, components such as the first operating unit60, the document placement table, and the paper ejection tray 78 thatare likely to be used by users are all located above the aforementionedborder line. Therefore, the flow of user operations from the firstoperating unit 60 to the document mounting tray, from the firstoperating unit 60 to the paper ejection tray 78, or the like can beguided.

Furthermore, the front side and the left side (side adjacent to theinformation processing device 10) of the paper ejection tray 78 areopened, and the bottom surface of the paper ejection tray 78 includes aninclined surface sloping upward toward the information processing device10 (sloping downward toward the opposite side of the informationprocessing device 10). Moreover, a wall portion 80 c that is a portionof the upper housing 80 b is disposed on the back side of the paperejection tray 78. In other words, the paper ejection tray 78 is definedby the wall portion 80 c. Note that an end portion (a left end portion)of the wall portion 80 c, which is located adjacent to the informationprocessing device 10 is disposed at a predetermined interval from a sidesurface of the information processing device 10 (the housing 28).Therefore, a lighting opening 92 is formed between the informationprocessing device 10 and the wall portion 80 c. Natural light or lightof the illumination in an installation site of the informationprocessing device 10 enters the paper ejection tray 78 through thelighting opening 92; therefore, the inside of the paper ejection tray 78becomes bright, and the visibility of the paper ejection tray 78 isimproved.

FIG. 8 is a block diagram illustrating an electrical configuration ofthe image forming device 70 illustrated in FIG. 1. With reference toFIG. 8, the image forming device 70 includes a CPU 82. A RAM 84, thestorage 86, the image reader 72, the image forming unit 74, and acommunication circuit 88 are connected via a bus 90 to the CPU 82.

The CPU 82 manages the overall control of the image forming device 70.The RAM 84 is as a work area and a buffer area of the CPU 82.

The storage 86 is a main storage device such as an HDD of the imageforming device 70. The CPU 82 stores a control program for controllingoperations of portions of the image forming device 70, display imagedata for various screens, or the like as appropriate. In addition, inthe present embodiment, the CPU 82, the RAM 84, and the storage 86function as sub-control units of the image forming system 100.

The communication circuit 88 is a communication circuit to connect to anetwork such as an Internet. The communication circuit 88 is a wiredcommunication circuit or a wireless communication circuit, andcommunicates through the network with an external computer such as aserver in accordance with an instruction from the CPU 82. Note that thecommunication circuit 88 can directly communicate with the informationprocessing device 10 by a wired or wireless system not through thenetwork.

In addition, the electric configuration of the image forming device 70in FIG. 8 is merely an example and is not necessarily limited thereto.

According to the information processing device 10 of the firstembodiment, the display surface of the display 14 configuring the firstoperating unit 60 and the upper surface of the second operating unit 62including a plurality of operating components are inclined surfacesinclined in the same direction. Therefore, advantageously, even a user,the eye level of which is low or even a user, the eye level of which ishigh can visually recognize the operating components and easily operatethe operating components.

In addition, in the aforementioned first embodiment, the step is formedby the recess 226 disposed in the lower end portion of the placementsurface 222, but not necessarily limited thereto. For example, asillustrated in FIG. 9, a step may be formed by a second protrusion 238extending in the left-right at the lower end portion of the placementsurface 222. The second protrusion 238 may be disposed substantiallyentirely along the left-right direction on the placement surface 222 ormay be partially disposed in a portion (for example, the center) in theleft-right direction of the placement surface 222. The second protrusion238 protrudes in the same direction as the first protrusion 224 (upwardor perpendicularly to the upper surface of the housing 28), and in themeanwhile, the position of an upper end of the second protrusion 238 islocated below the position of an upper end of the first protrusion 224(close to the upper surface of the housing 28). In other words, theprotrusion amount of the second protrusion 238 is smaller than that ofthe first protrusion 224 (the protrusion height of the second protrusionis lower). Specifically, the position of the upper end of the secondprotrusion 238 (the protrusion height of the second protrusion 238) isset such that when a communication object is placed on the placementsurface 222, a lower end portion of the communication object does notget over the first protrusion 224 (is not located above the firstprotrusion 224).

Second Embodiment

A second embodiment of the present invention is the same as the firstembodiment except that instead of the rotary support portion 142, slidesupport portions 44 are disposed on the information processing device10; therefore, the contents different from those of the first embodimentwill be described, and duplicate explanations will be omitted.

As illustrated in FIGS. 10 and 11, in the second embodiment, instead ofthe front upper cover 34 and the rear upper cover 36, the housing 28includes an upper cover 46 that configures the most part of the upperend portion (the upper surface) of the housing 28.

Further, the frame body 140 is supported by the slide support portions44 that support the frame body 140 (the first operating unit 60) suchthat the frame body 140 (the first operating unit 60) is slidable to thehousing 28 along the upper surface of the first operating unit 60 in thefront-back direction. In other words, the first operating unit 60 isslid along the upper surface of the first operating unit 60, thereforebeing displaced in the front-back direction while maintaining theinclination angle.

The slide support portions 44 are disposed along left and right endportions of the frame body 140, and each of the slide support portions44 includes a guide groove 462 and a guide protrusion 144 which areslidably fitted. In the present embodiment, the guide groove 462 isformed in the housing 28 (the upper cover 46), and the guide protrusion144 is formed at the frame body 140. Alternatively, the guide groove 462may be formed in the frame body 140, and the guide protrusion 144 may beformed at the housing 28 (the upper cover 46).

In the second embodiment, as illustrated in FIG. 10, a state where theframe body 140 (the first operating unit 60) is located on the rearmostside (a rear end portion of the frame body 140 is in contact with avertical wall of the upper cover 46, which is located on the back side)is the first state. As illustrated in FIG. 11, a state where the framebody 140 (the first operating unit 60) is displaced to the front side isthe second state.

According to the second embodiment, the upper surface of the firstoperating unit 60 and the upper surface of the second operating unit 62are inclined in the same direction in the same way as in the firstembodiment; therefore, the operability of a user can be improved.

Further, in addition to the configuration of the second embodimentdescribed above, a position detection sensor that detects the positionof the frame body 140 (the first operating unit 60) may be disposed inthe information processing device 10. With such a configuration, in acase where the first operating unit 60 is in the second state at thetiming when operating components of the second operating unit 62 need tobe operated (in a case where a portion of the second operating unit 62is covered by the first operating unit 60), a notification screen tosuggest sliding the first operating unit 60 rearward is displayed on thedisplay 14. Thus, a user can be urged to slide the first operating unit60 rearward and bring the first operating unit 60 into the first state(allow the upper side of the second operating unit 62 to be opened). Inaddition, a drive mechanism for moving the frame body 140 (the firstoperating unit 60) may be disposed in the information processing device10. With such a configuration, the first operating unit 60 can beautomatically brought into the first state at the timing when operatingcomponents of the second operating unit 62 need to be operated.

Third Embodiment

A third embodiment of the present invention is the same as the firstembodiment except that the front-back relation between the firstoperating unit 60 and the second operating unit 62 is reversed;therefore, the contents different from those of the first embodimentwill be described, and duplicate explanations will be omitted.

As illustrated in FIG. 12, in the third embodiment, instead of the frontupper cover 34 and the rear upper cover 36, the housing 28 includes anupper cover 48 that configures the most part of the upper end portion(the upper surface) of the housing 28. Further, the second operatingunit 62 is arranged on the back side of the first operating unit 60 onthe upper surface of the housing 28. In other words, the first operatingunit 60 is arranged on the front side of the second operating unit 62.

In addition, the first operating unit 60 is rotatably supported by therotary support portion 142 in the same way as in the first embodiment.Furthermore, the third operating unit 64 is disposed on a vertical wallportion 48 a formed at a rear end portion of the upper cover 48.

Moreover, operating components other than the display 14 with the touchpanel 12 may be included in the first operating unit 60 near side asseen from a user. For example, as illustrated in FIG. 13, the memoryconnection 50 may be included in the first operating unit 60. In thiscase, the memory connection 50 is disposed on the left/right outersurface (for example, the right surface) of the frame body 140.

According to the third embodiment, the upper surface of the firstoperating unit 60 and the upper surface of the second operating unit 62are inclined in the same direction in the same way as in the firstembodiment; therefore, the operability of a user can be improved.

In addition, the specific configurations or the like in the embodimentsabove are an example and can be changed as appropriate in accordancewith actual products.

For example, the protrusion 360 for forming the opening 66 between thelower surface of the first operating unit 60 and the upper surface ofthe housing 28 may be disposed on the first operating unit 60.

Moreover, the four light emitters 232 are disposed on the placementsection 220; however, the number of light emitters 232 is not limited tofour. Three or less, (for example, one light emitter) or five or morelight emitters may be provided.

What is claimed is:
 1. An information processing device, comprising: ahousing; a placement section that is disposed on an upper surface of thehousing, the placement section having a portable communication objectplaced thereon; a wireless communicator that wirelessly communicateswith the communication object placed on the placement section; and afirst protrusion that extends in a left-right direction along a lowerend of the placement section, wherein the placement section includes aplacement surface sloping downward from a back side toward a front side,the placement surface having the communication object placed thereon,and a step, forming a gap between the placement surface and thecommunication object, is disposed in a lower end portion of theplacement surface.
 2. The information processing device according toclaim 1, wherein the placement section is disposed entirely along theleft-right direction of the lower end portion of the placement surfaceand is provided with a recess extending in the left-right direction. 3.The information processing device according to claim 2, wherein theupper surface of the housing is an inclined surface sloping downwardfrom the back side toward the front side, and the placement surfaceincludes a first inclined surface having an inclination angle identicalto that of the upper surface of the housing, and a second inclinedsurface connected to a front side of the first inclined surface, forminga portion of the recess, and sloping downward from the first inclinedsurface toward the front side.
 4. The information processing deviceaccording to claim 1, wherein the placement section includes a secondprotrusion extending in the left-right direction at the lower endportion of the placement surface and being lower than the firstprotrusion.
 5. The information processing device according to claim 1,further comprising at least one light emitter disposed on the placementsection.
 6. The information processing device according to claim 5,wherein the placement section is formed in a rectangular shape, and thelight emitter is respectively disposed in four corner portions of theplacement section.
 7. The information processing device according toclaim 6, further comprising a wireless communication mark disposed onthe placement surface and serving as an index of a location over whichthe communication object is held, wherein the wireless communicationmark is arranged at a position in which diagonal lines of the fourcorner portions intersect on the placement surface.
 8. The informationprocessing device according to claim 6, wherein the wirelesscommunicator includes a wireless communication antenna built in thehousing, and the wireless communication antenna is arranged at aposition in which diagonal lines of the four corner portions intersect.9. The information processing device according to claim 6, wherein twolower light emitters of four of light emitters are respectively disposedin opposite end portions of the first protrusion in a longitudinaldirection thereof.